mathematic

简明释义

英[ˌmæθəˈmætɪk]美[ˌmæθəˈmætɪk]

adj. 数学的；精确的；数理的；肯定的；精确的；严谨的

英英释义

单词用法

同义词

反义词

例句

1.Through detailed mathematic analysis and induction, a discrete time model of bandwidth and buffer limited stream media system is built.

论文通过详尽的数学分析和数学归纳，建立了带宽和缓存均有限的流媒体系统的离散时间模型。

2.A mathematic model of spray wall-impingement was established based on discrete droplet model (DDM) considering the operating conditions of diesel engine.

基于离散液滴模型(DDM)，结合柴油机实际工作情况，建立了喷雾碰壁的数学模型。

3.Here we introduce a method and equipment of on-line linear data identification for a swing mathematic model.

本文介绍一种对摇摆数学模型线性参数在线辨识的方法和装置。

4.To take the advantage of high efficient and fast mathematic calculations of computer, this system realized the optimum design of nonlinear cam-profiles.

利用计算机高效快速的数学运算，实现非线性三角的优化设计，并根据实际要求设计生产高效的线性三角。

5.To get the index, we firstly compute the mathematic average for single commodity price, using price and trading volume of all contracts.

然后再对所有的期货商品，以持仓金额为权重，计算对于基期数据比值的加权算数平均值，得到指数值。

6.The experiment is one of the basic ways obtaining scientific facts, while mathematic method is an important tool in scientific practice.

实验是获取科学事实的基本方法，数学方法则是科学实践的重要工具。

7.The wrong mathematic methods play their roles in this field.

错误的数学方法在这个领域内起着作用。

8.Mathematic model of satellite attitude dynamic is set up, and external disturbance torque is analyzed.

建立卫星姿态动力学数学模型，并分析星体所受的外部扰动力矩。

9.She has always excelled in mathematic 数学 subjects, especially calculus.

她在数学科目上总是表现出色，尤其是微积分。

10.He decided to pursue a degree in mathematic 数学 because he loved problem-solving.

他决定攻读数学学位，因为他喜欢解决问题。

11.Understanding mathematic 数学 concepts is crucial for engineering students.

理解数学概念对工程专业的学生至关重要。

12.Many scientific fields rely heavily on mathematic 数学 models to predict outcomes.

许多科学领域严重依赖于数学模型来预测结果。

13.The teacher explained the importance of mathematic 数学 reasoning in everyday life.

老师解释了数学推理在日常生活中的重要性。

作文

Mathematics is often regarded as the language of the universe. It is a field that encompasses various branches, including algebra, geometry, calculus, and statistics. Each of these branches plays a crucial role in understanding the world around us. The term mathematic (数学) refers to the study of numbers, shapes, and patterns. It is not merely a collection of formulas and equations; rather, it is a way of thinking critically and logically about problems. In our daily lives, we encounter mathematic (数学) concepts more often than we realize. From budgeting our expenses to calculating distances while traveling, mathematic (数学) is an integral part of our decision-making processes. For instance, when planning a trip, one must consider the cost of gas, the distance to be traveled, and the time it will take to reach the destination. These calculations require a basic understanding of mathematic (数学) principles. Moreover, mathematic (数学) is essential in various professions. Engineers use mathematic (数学) to design structures, ensuring they are safe and stable. Scientists rely on mathematic (数学) to analyze data and draw conclusions from experiments. Even artists utilize mathematic (数学) concepts such as symmetry and proportion to create visually appealing works. This cross-disciplinary nature of mathematic (数学) highlights its importance beyond mere numbers. Education systems worldwide emphasize the significance of mathematic (数学) in curricula. Students learn basic arithmetic before progressing to more complex topics like algebra and calculus. This progression helps develop critical thinking skills, enabling students to approach problems methodically. However, many students struggle with mathematic (数学), often due to anxiety or a lack of confidence in their abilities. It is crucial for educators and parents to foster a positive attitude towards mathematic (数学) from a young age, encouraging exploration and curiosity. In recent years, the advent of technology has transformed the way we engage with mathematic (数学). Online platforms and applications provide interactive tools for learning and practicing mathematic (数学) skills. These resources make mathematic (数学) more accessible and enjoyable, especially for those who may find traditional methods challenging. Additionally, the integration of mathematic (数学) in fields like computer science and artificial intelligence showcases its relevance in the modern world. In conclusion, the study of mathematic (数学) is not just about solving equations; it is about developing a mindset that values logic and reasoning. As we continue to navigate an increasingly complex world, the importance of mathematic (数学) will only grow. By embracing mathematic (数学) in our education and daily lives, we equip ourselves with the tools necessary to tackle challenges and innovate for the future. Understanding and mastering mathematic (数学) is essential for personal and professional growth, making it a subject worth investing time and effort into.

数学通常被视为宇宙的语言。它是一个涵盖多个分支的领域，包括代数、几何、微积分和统计学。这些分支在理解我们周围的世界中起着至关重要的作用。术语mathematic（数学）指的是数字、形状和模式的研究。它不仅仅是一系列公式和方程，而是一种对问题进行批判性和逻辑性思考的方式。在我们的日常生活中，我们比我们意识到的更频繁地遇到mathematic（数学）概念。从预算开支到计算旅行时的距离，mathematic（数学）是我们决策过程中的一个重要部分。例如，在计划一次旅行时，人们必须考虑汽油的费用、要行驶的距离以及到达目的地所需的时间。这些计算需要对mathematic（数学）原理的基本理解。此外，mathematic（数学）在各个职业中都是必不可少的。工程师使用mathematic（数学）来设计结构，确保其安全和稳定。科学家依赖于mathematic（数学）来分析数据并从实验中得出结论。甚至艺术家也利用mathematic（数学）概念，如对称和比例，来创作视觉上吸引人的作品。这种跨学科的mathematic（数学）特性突显了它在数字之外的重要性。世界各地的教育系统强调在课程中mathematic（数学）的重要性。学生们在学习基础算术后，逐步深入到更复杂的主题，如代数和微积分。这种进展有助于发展批判性思维能力，使学生能够系统地解决问题。然而，许多学生在学习mathematic（数学）时会遇到困难，往往是由于焦虑或缺乏自信。教育工作者和家长必须从小培养对mathematic（数学）的积极态度，鼓励探索和好奇心。近年来，科技的发展改变了我们与mathematic（数学）的互动方式。在线平台和应用程序提供了互动工具，用于学习和练习mathematic（数学）技能。这些资源使得mathematic（数学）变得更加易于接触和愉快，特别是对于那些可能发现传统方法具有挑战性的人。此外，mathematic（数学）在计算机科学和人工智能等领域的整合展示了它在现代世界中的相关性。总之，学习mathematic（数学）不仅仅是解决方程；而是培养一种重视逻辑和推理的思维方式。随着我们继续应对越来越复杂的世界，mathematic（数学）的重要性只会增加。通过在我们的教育和日常生活中拥抱mathematic（数学），我们为自己装备了应对挑战和创新未来所需的工具。理解和掌握mathematic（数学）对个人和职业成长至关重要，使其成为值得投入时间和精力的学科。